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Nissan is assessing the potential of electric vehicles in energy management systems. […] is participating in the “demand response” energy supply and demand system testing together with businesses and government authorities in Japan.

>”[…] Demand response is a strategy to make power grids more efficient by modifying consumers’ power consumption in consideration of available energy supply. Since the Great East Japan Earthquake in March 2011 the supply and demand of electricity during peak use hours in Japan has drawn attention. Under the demand response scheme, power companies request aggregators* to use energy conservation measures, and they are compensated for the electricity that they save.

Usually when energy-saving is requested consumers may respond by moderating their use of air conditioning and lighting. However, by using the storage capacity of electric vehicles and Vehicle to Home (V2H) systems, consumers can reduce their use of power at peak times without turning off lights and appliances. This is particularly useful in commercial establishments where it is difficult to turn power off to save electricity.

The demand response scheme involves assessing the usefulness of energy-saving measures using V2H systems during peak-use periods and analyzing the impact of monetary incentives on business. For example, the testing involves a LEAF and LEAF to Home system which is connected to power a Nissan dealer’s lighting system during regular business hours using stored battery energy. This reduces electricity demand on the power grid. The aggregator is then compensated for the equivalent of the total amount of electricity that is saved. Two or three tests per month will be conducted on designated days for three hours’ each time sometime between 8:00 a.m. to 8:00 p.m. from October 2014 through January 2015.

Effective use of renewable energy and improvements in the efficiency of power generation facilities will enable better energy management in the future and help reduce environmental impact. Field tests using EVs’ high-capacity batteries that are being conducted globally are proving their effectiveness in energy management. Additionally, if similar compensation schemes for energy-saving activities were applied to EV owners it could accelerate the wider adoption of EVs and reduce society’s carbon footprint.

Nissan has sold more than 142,000 LEAFs globally since launch. The Nissan LEAF’s power storage capability in its onboard batteries, coupled with the LEAF to Home power supply system, is proving attractive to many customers. As the leader in Zero Emissions, Nissan is promoting the adoption of EVs to help build a zero-emission society in the future. Along with these energy management field tests, Nissan is actively creating new value through the use of EVs’ battery power storage capability and continuing to promote initiatives that will help realize a sustainable low-carbon society.

* Aggregators refers to businesses that coordinate two or more consumers (e.g. plants and offices) and trade with utility companies the total amount of the electricity they have succeeded in curbing.”<